TRANSDUCER STEERING AND CONFIGURATION SYSTEMS AND METHODS USING A LOCAL POSITIONING SYSTEM

Organization Name

Shure Acquisition Holdings, Inc.

Inventor(s)

Roger Stephen Grinnip, Iii of Lake Zurich IL (US)

Jordan Schultz of Chicago IL (US)

TRANSDUCER STEERING AND CONFIGURATION SYSTEMS AND METHODS USING A LOCAL POSITIONING SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240031736 titled 'TRANSDUCER STEERING AND CONFIGURATION SYSTEMS AND METHODS USING A LOCAL POSITIONING SYSTEM

Simplified Explanation

The patent application describes systems and methods for using a local positioning system to control the position and orientation of transducers, devices, and objects within a physical environment. This enables the steering of lobes and nulls of the transducers, the creation of self-assembling arrays, and the monitoring and configuration of the transducers, devices, and objects through an augmented reality interface. The optimized configuration of the transducers and devices improves sound capture and reproduction, system performance, and user satisfaction.

• The patent application proposes using a local positioning system to control the position and orientation of transducers, devices, and objects in a physical environment.
• This allows for the steering of lobes and nulls of the transducers, improving their performance.
• The local positioning system can also be used to create self-assembling arrays of transducers.
• An augmented reality interface is utilized to monitor and configure the transducers, devices, and objects.
• The optimized configuration of the transducers and devices results in better sound capture and reproduction, improved system performance, and increased user satisfaction.

Potential Applications

• Audio systems: The technology can be applied to improve the performance of audio systems, such as speakers and microphones, by optimizing their configuration.
• Virtual reality and augmented reality: The augmented reality interface can enhance the user experience in virtual reality and augmented reality applications by allowing for better control and configuration of transducers and devices.
• Robotics: The local positioning system can be used in robotics to control the position and orientation of robotic arms or other devices, improving their performance and accuracy.

Problems Solved

• Inefficient transducer configuration: The technology solves the problem of suboptimal transducer configuration by using a local positioning system to control their position and orientation, resulting in improved performance.
• Limited control and monitoring: The augmented reality interface solves the problem of limited control and monitoring capabilities by providing a user-friendly interface to monitor and configure transducers, devices, and objects.

Benefits

• Improved sound capture and reproduction: The optimized configuration of transducers leads to better sound capture and reproduction, enhancing the audio experience.
• Enhanced system performance: The technology improves the overall performance of systems utilizing transducers and devices, resulting in better functionality and efficiency.
• Increased user satisfaction: By providing better control and monitoring capabilities, the technology increases user satisfaction with audio systems, virtual reality applications, and robotics.

Original Abstract Submitted

transducer steering and configuration systems and methods using a local positioning system are provided. the position and/or orientation of transducers, devices, and/or objects within a physical environment may be utilized to enable steering of lobes and nulls of the transducers, to create self-assembling arrays of the transducers, and to enable monitoring and configuration of the transducers, devices, and objects through an augmented reality interface. the transducers and devices may be more optimally configured which can result in better capture of sound, better reproduction of sound, improved system performance, and increased user satisfaction.